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Shri Vaishnav Vidyapeeth Vishwavidyalaya, Indore

Name of Program: Bachelor of Technology in Electronics & Communication

Legends: L - Lecture; T - Tutorial/TeacherGuided StudentActivity; p-Practical; C - Credit;*Teacher Assessment shall be based following components: Quiz/Assignment/ Project/Participation in Class,

given that no component shall exceed more than 10 marks.

Course Educational Objectives (CEOs):I . To develop the comprehensive understanding of laws of physics.2. To develop ability to apply laws of physics for various engineering applications.3. To develop the experimental skills, ability to analyze the data obtained experimentally to reach substantiated

conclusions.

Course Outcomes (COs):1. Student will be able to comprehend laws of physics.2. Student will be able to apply laws of physics for various engineering applications.3. Student will be able to determine physical parameter experimentally and will be able to analyze the data ob-

tained experimentally to draw substantiate conclusions.

Syllabus

UNIT IQuantum PhysicsIntroduction to Quantum hypothesis, Matter wave concept, Wave Group and Particle velocity and their relations,

Uncertainty principle with elementary proof and applications to microscope and single slit, Compton Efflect,

Wave function and its physical significance. Development of time dependent and time independent Schrodinger

wave equation, Applications of time dependent and time independent Schrodinger wave equation

[]NIT IISolid State PhysicsFree electron model, Qualitative Analysis of Kronig Penney Model, Effective mass, Fermi level for Intrinsic and

Extrinsic semiconductors, P-N junction diode, Zener diode, Tunnel diode, Photodiode, Solar- cells, Hall Effect.

Introduction to Superconductivity, Meissner effect, Type I & II Superconductors

UI\IT IIINuclearPhysicsNuclear Structure & Properties Nuclear models:

Particle accelerators: Synchrotron, Betatron.

Liquid drop with semi-empirical mass formula & shell model.

Counters and Detectors: Giger-Muller counters, Bainbridge Mass Spectrograph and Auston Mass Spectrograph.

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UNIT IVLaser & Fibre OpticsStimulated and Spontaneous Emission, Einstein's A&B Coeffrcients, Population Inversion, pumping, Techniquesof Pumping, Two three and four level lasers. Optical Resonator, Properties and Applications of Laser, Ruby,Nd:YAQ He-Ne, CO2 lasers.

Introduction to Optical fibre, Types of Optical fibre, Acceptance angle and cone, Numerical Aperture, V-Number, Fractional refractive index change A, Ray theory of propagation through optical fibre, pulse dispersionand its types, Attenuation, losses and applications of optical fibre.

T]1\I-IT VWave OpticsIntroduction to Interference, Fresnel's Bi-prism, Interference in Thin films, Newton's rings experiment,Michelson's interferometer and its application.Introduction to Diffraction and its Types, Diffraction at single slit, double slit andcriterion, resolving power of grating.

diffraction grating. Rayleigh

Concept of polarized light, Brewster's laws, Double refraction, Nicol prism, quarter and half wave plate,circularly & elliptically polarized light.

Textbook Books:

1. Engineering Physics by Dr. S. L. Gupta and Sanjeev Gupta, Dhanpat Rai Publication, New Delhi.2. Engineering Physics by Navneet Gupta, Dhanpat Rai publication, New Delhi.3. Engineering Physics by H. J. Sawant, Technical Publications, Pune, Maharastra.

References:1. M.N. Avdhanulu & P.G. Kshirsagar, "Engg physics" S.chand & co.Edition 2010.2. Fundamentals of Physics by Halliday, Wiley,India.3. Concepts of Modern Physics by Beiser, TMH, New Delhi.4. Solid State Physics by Kittel,Wiley,India.5. Atomic and Nuclear physics by Brijlal and Subraminiyan.6. christopher c. Davis, "LASERSs and Electro optics" cambridge Univ. press, 1996.7. J.Wilson & J.F.B.Hawkes, "Optroelectronics an Introduction" Prentice-Hall II Edition.8. A.K. Ghatak &Tyagarajan, *LASER theory and applications,, 19g4.9. Optics By Ghatak, TMH.

List of Experiments:1. Measurement of radius of curvature "R" of convex lens by Newton's ring experiment.2. Measurement of Numerical aperture of fiber by LASER.3. Determination of Energy band gap 'Eg'of Ge using Four probe method.4. Measurement of Frequency ofA.C. mains by electrically maintained vibrating rod.5. Measurement of Resolving Power of Telescope.6. Measurement of "1," of LASER\ight source using Diffraction Grating.7. Determination of Planck's constant by using photocell.8. Determination of Energy band gap (Eg) using pN Junction Diode.9. To determine the mass of cane suga, dissolved in water using half shade polarimeter.1 0. To study forward and reverse characteristics of Zener diode.

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BTMA201 Applied Mathematics -II 60 20 20 0 0 3 1 0 4

Legends: L - Lecture; T - Tutorial/Teacher Guided Student Activity; P – Practical; C - Credit;

*Teacher Assessment shall be based following components: Quiz/Assignment/ Project/Participation in Class, given that

no component shall exceed more than 10 marks.

Course Educational Objectives (CEOs):

To introduce the students with the Fundamentals of the Calculus of Matrices, Differential Equations and

Numerical Analysis

Course Outcomes

After the successful completion of this course students will be able to

1. understand and apply the basics of the calculus of matrices.

2. solve the fundamental problems of the ordinary differential equations.

3. apply the advanced techniques to find the solution of the ordinary differential equations.

4. know the techniques of the numerical analysis.

5. find the numerical solution of the ODE and PDE.

UNIT – I

Calculus of Matrices

Systems of linear equations and their solutions. Matrices, determinants, rank and inverse. Linear

transformations. Range space and rank, null space and nullity. Eigenvalues and eigenvectors. Similarity

transformations. Diagonalization of Hermitian matrices. Bilinear and quadratic forms.

UNIT – II

Differential Equation

Ordinary Differential Equations: First order linear and nonlinear ordinary differential equations, exactness and

integrating factors. Ordinary linear differential equations of n-th order, solutions of homogeneous and non-

homogeneous equations. Operator method. Method of undetermined coefficients and variation of parameters.

UNIT – III

Differential Equation

Power series methods for solutions of ordinary differential equations. Legendre equation and Legendre

polynomials, Bessel equation and Bessel functions of first and second kind.

Shri Vaishnav Vidyapeeth Vishwavidyalaya, Indore

UNIT – IV

Numerical Analysis

Interpolation and Curve Fitting: Introduction to Interpolation; Calculus of Finite Differences; Finite Difference

and Divided Difference Tables; Newton-Gregory Polynomial Form; Lagrange Polynomial Interpolation;

Theoretical Errors in Interpolation; Spline Interpolation; Approximation by Least Square Method. Numerical

Differentiation and Integration: Discrete Approximation of Derivatives: Forward, Backward and Central Finite

Difference Forms, Numerical Integration, Simple Newton-Cotes Rules: Trapezoidal and Simpson's (1/3) Rules;

Weddle’s Rule, Gaussian Quadrature Rules: Gauss-Legendre, Gauss-Laguerre, Gauss-Hermite, Gauss-

Chebychev.

UNIT – V

Numerical Solution of ODE & PDE: Euler's Method for Numerical Solution of ODE; Modified Euler's

Method; Runge‐Kutta Method (RK2, RK4), Error estimate; Multistep Methods: Predictor‐Corrector method,

Adams‐Moulton Method; Boundary Value Problems and Shooting Method; finite difference methods,

numerical solutions of elliptic, parabolic, and hyperbolic partial differential equations.

Texts:

G. Strang, Linear Algebra And Its Applications, 4th Edition, Brooks/Cole, 2006

S. L. Ross, Differential Equations, 3rd Edition, Wiley, 1984.

E. A. Coddington, An Introduction to Ordinary Differential Equations, Prentice Hall, 1995.

W.E. Boyce and R.C. DiPrima, Elementary Differential Equations and Boundary Value Problems, 7th

Edition, Wiley, 2001.

E, K. E. Atkinson, Numerical Analysis, John Wiley, Low Price Edition (2004).

F. S. D. Conte and C. de Boor, Elementary Numerical Analysis ‐ An Algorithmic Approach,

McGraw‐Hill,2005.

G. B. S. Grewal, Higher Engineering Mathematics, Khanna Publishers, Delhi

References:

E. Kreyszig, Advanced Engineering Mathematics, 9th Edition, Wiley, 2005.

R. G. Bartle and D. R. Sherbert, Introduction to Real Analysis, 5th Ed, Wiley, 1999.

J. Stewart, Calculus: Early Transcendentals, 5th Ed, Thomas Learning (Brooks/ Cole), Indian Reprint,

2003.

J. Stoer and R. Bulirsch, Introduction to Numerical Analysis, 2nd Edition, Texts in Applied

Mathematics, Vol. 12, Springer Verlag, 2002.

J. D. Hoffman, Numerical Methods for Engineers and Scientists, McGraw‐Hill, 2001.

M.K Jain, S.R.K Iyengar and R.K Jain, Numerical methods for scientific and engineering computation

(Fourth Edition), New Age International (P) Limited, New Delhi, 2004.

S. C. Chapra, Applied Numerical Methods with MATLAB for Engineers and Scientists, McGraw‐Hill

2008.

TEACHING & EVALUATION SCHEME

SUBJECTCODE

Introduction to Communica-

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Name of Program: Bachelor of Technology in Electronics & communication

ivrtY;P-Practical; C - Credit;

*Teacher Assessment shall be based fonowing "o,npor.rrtr:

quilAssignment/ Project/Participation in class'

given that no component shall exceed more than 10 marks'

Course Educational Objectives (CEOs)

The student will be ;i;;undersiand the basics of various communication systems'

Course Outcomes (COs):

After successfully completing the course students will be able to

1. Understand the communiiation systems and channels'

2. Understand the concept of modulation and demodulation

3. Learn the basic concepts of voice communication, opticar fiber and satellite communication'

Syllabus

UNIT ICommunication process, Communication System and_its elements, Types of Communication me-

dia/channels and its characteristics, Typ;;;iii..ry"i"-communication one-way, hvo-way, half duplex

*a n ff duplex, Electromagnetic spectrum and its Bandwidth'

Definition of Signals & Systems, Information, Time and Frequency Representation of signals, types of

signals, spectrum & bandwidth of signals, Fourier analysis of signals

Demodulation, need of modulation, representation of various Modulation

Multiplexing & its types: TDM, FDM, CDM'

range, Introduction to telephone instruments & signals' Basic tele-

iJ""pto". network (PSTN;, Mobile technology evolution' GSM &

CDMA systems. \

UNIT IVoptical fiber transmission and communication, History of optics, brock diagram of optical fiber com-

munication system, principle of operation' types of optical fibers

UNIT IIDefinition of Modulation and

scheme (Analog and Digital),

UNIT IIIVoice communication, FrequencY

phone operation, Public switched

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UNIT VBasics of Radio waves, layers of atmosphere. Satellite communication, History of Satellites, Kepler's

laws, Satellite orbits and geostationary satellites'

Text Books:i- *uyr. Tomasi: Advanced Electronic communication Systems, sixth Edition, PHI'

2. Robert L. Shrader: Electronic communication, Macmillan/McGraw-Hi11'

3. B.P. Lathi : rvroa"r.rAnalog and Digital communication System, wiley Eastern Limited'

4. Taub and schilling: Principles of communication Systems, TMH.

References:1. S Haykin: communication Systems, John wiley and Sons Inc.

2. S Ghtse: Signals and Systems, Pearson Education'

3. Steven: Communication Systems -Analysis and Design, Pearson Education'

4. Hwei P. Hsu: schaum's outtine of Signals and Systems, McGraw-Hill.

5. Singh and Sapre: Communication Systems, TMH'

6. Reger J. Bates & D.W. Gregory, voice &DataCommunication Handbook, Fifth Edition' TMH'

List of Experiments:l. Study of Function Generator.

2. Study of various signals onCRO and measurement of time period and frequency'

3. Synthesis of signal using Fourier series'

4. Introduction to MAILAB/ qtOctave'

5. Generation of basic signals using MATLAB/ qtOctave'

6. Mathematicalanalysis of basic signal operations'

7. AnalyzeAM signal using MATLAB/ qtOctave'

8. Analyze time division multiplexed signals'

9. Study of optical fiber communication system'

10. Study and analysis of serial communication'

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vrty; P - Practical;L-g."d" L - L""t rre; T - Tutorial/Teacher*Teacher Assessment .t utt t" based following components: Quiz/Assignmenv

given that no component shall exceed more than 10 marks'

Course Educational Objectives (CEOs)

This course will help the student to use and test different types of electronics components, different ba-

sic electrical and Electronics instruments used in electrical & electronics circuits and systems'

Course Outcomes (COs):

i. fo gain the Knowledge of Various electronics component'

2. Students will understand how to measures / characterize components through measuring instru-

ments.3. students wilr test various electrical and electronics components, and measure circuit parameters'

4. Students wil: Leam how to a".,r"rop LJ emproy circuit moders for elementary electronic compo-

nents

Syllabus

I.]NIT Icables and Switches: Differentiate various cables, connectors, Differentiate the various Switches&

their usage. Connect and use cables, connectors and switches'

protective devices: Electrical Protective devices -fuses, relay and MCB

UNIT IIElectrical and Electronics components: Resistors, capacitors, inductors and transfofiners' Integrated

circuits and it pu.tuging iechnique. Soldering technique, tools and PCB

UNIT IIIMeasuring Instruments: Overview of Voltmeter, Ammeter, Multimeter' CRO'

UNIT IVElectrical Drawing: Wiring.diagram and control circuit: point D' C' motor starter' point

starter, DOL starter, star delta starter, Auto Transformer starter' Rotor resistance starter'

lamp from Positions.

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T]NIT VDifferent types of Diodes: P-N Junction diode, Zenq diode , Schottky Diode,

List of experiments.

1. Identify different types of cables & test it.2. Identifu different types of connectors & Discover.their application.

3. Identify different types of Switches and discover its usage.

4. Identifu different types of fuses & test it.5. Identify different types of Relays and discover its usage.

6. Identifu, find value using colour code chart and test different types of Resistors.

7. Identifr, find value and test different types of capacitors.

8. Identiff, find value and test diflerent types of Inductors.g. Connect Resister,capacitor, inductor in series and parallel circuits10. Draw front panel control of analog and digital multimeter label it.11. Demonstrate external controls of CRO & function Generator.

12. Measure amplitude & frequencies of different sine waveform using CRO & Function

Generator.13. Test resistor, capacitor, inductor, P-N junction Diode using CRO & Multimeter.

14. Identify Various IC packages.

15. Identify various SMD components.

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B. Tech. in Mechanical Engineering

TEACHlNG & EVALUATION SCHEME

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SUBJECT Category SUBJECT NAME t- t: ~CODE >- >-

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BTMEI03 WORKSHOP PRACTICES 0 0 0 30 20 0 0 2 I..

Legends: L - Lecture; T - Tutorial/Teacher GUIded Student Activity; P - Practical; C - Credit;"Teacher Assessment shall be based following components: QuizJAssignmenti Project/Participation inClass, given that no component shall exceed more than 20 marks.

Course Educational Objectives (CEOs):To paraphrases with (A) workshop technology, industrial safety, and understand materialproperties. (B) Carpentry shop, fitting shop, (C) welding and casting.

Corse Outcomes (COs):After completion of this course the students are expected to be able to demonstrate following knowledge,skills and attitudes students will be able to

1. Student would be able to understand the need of workshop, technology related to it, and industrialsafety and precautions.

2. Student would be able to use carpentry tools, analyses various wood joints and their properties.3. Students would be able to use fitting tools to make various shapes and design.4. Student would be able to recognize various welding techniques and their needs.5. Students would be able to design various shapes by using casting technologies.

SyllabusUnit -IIntroduction to Workshop Technology & Industrial SafetyWorkshop Technology: Introduction, need of workshop and types of workshopIndustrial Safety- Introduction, objective of industrial safety, causes of accidents, commonsources of accidents, preventive measures, and common safety methods.

Unit -IICarpentry Shop Carpentry: Introduction, types of timbers, defects in timbers, timberprevention, characteristics of good timber, common tools used in carpentry shop (marking andmeasuring tools; cutting tools and striking tools), and common wood joints (cross-lap, corner-lap, dovetail and bridle joints).

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hri Vaishnav Vidyapeeth Vishwavidyalayal

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Unit -IIIFitting Shop Fitting: Introduction, tools used in fitting shop (measuring tools, holding tools,cutting tools, striking tools and supporting tools) and operation performed in fitting work.

Unit -IVWelding Shop Welding: Introduction, terminological elements of welding process, weldingjoints (lap joints and butt weld joint), welding positions, advantages and disadvantages of welding,classification of welding, gas welding processes and safety recommendation for gas welding.

Unit -vCasting: Pattern making and sand casting, Pattern materials, Types of pattern, Patternallowances. Core prints. Moulding sand, ingredients, classification, sand additives, properties ofmoulding sand, sand preparation and testing. Green sand mould preparation. Cores and coremaking - Types of cores.

Reference Books:1. "Production Technology", by R.K. Jain2. "Principles of Manufacturing Material & Process", by Campbeu3. "Welding: Principles & Practise", by Bonhart4. "Welding and Welding Technology", by Little5. "Principles of Foundry Technology", by Jain6. "Manufacturing Technology", by P. N. Rao7. "Workshop Technology", by B.S. Raghuvanshi

List of Experiments1. To study various industrial safety precautions & preventive measures.2. To study the various timber properties, its defects and its prevention.3. To make various joints (L-joint, T-joint, Cross joint, etc.) using carpentry tools.4. To perform various fitting shop operations using fitting tools.5. To study various welding methods and its safety precaution.6. To make various welding joints (Butt joints, Lap, joints, corner joints, etc).7. To study sheet metal properties and safety precautions.8. To make various shapes using sheet metal tools and terminologies.

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